Mobile Terminal with Camera Clock Frequency Control

1. A method for controlling a mobile terminal that includes at least one camera, comprising: operating at least one clock at first and second frequencies; determining wireless signal reception sensitivities of the mobile terminal at the first and second frequencies; comparing the wireless signal reception sensitivities; determining that one of the first or second frequencies does not lower wireless signal reception sensitivity for a searched wireless channel; and operating the camera at the first frequency or the second frequency determined not to lower wireless signal reception sensitivity for the searched wireless channel, wherein: the at least one clock is operated at the first and second frequencies before the mobile terminal enters a camera mode, the camera is operated at the first frequency or the second frequency determined not to lower wireless signal reception sensitivity for the searched wireless channel when the mobile terminal is in camera mode, and when a difference between the wireless signal reception sensitivities at the first and second frequencies is less than a predetermined value, the method includes: operating the camera at a third frequency which produces a wireless signal reception sensitivity lower than the wireless signal reception sensitivities produced at each of the first and second frequencies, wherein the third frequency is determined based on at least one of a a mode of the camera or a setting of the camera.

2. The method of claim 1 , wherein the wireless channel changes as a result of a handoff operation.

3. The method of claim 1 , wherein the mobile terminal communicates signals over a wireless channel based on a clock different from the clock operated at the first and second frequencies.

4. The method of claim 1 , wherein operating the at least one clock at the first and second frequencies includes: operating a first clock at the first frequency; and operating a second clock at the second frequency.

5. The method of claim 1 , wherein the camera of the mobile terminal is controlled at said one of the first or second frequencies in response to the mobile terminal entering a video calling mode.

6. The method of claim 1 , wherein the mobile terminal includes: a main clock to drive the camera, and a pixel qualification clock output from the camera, wherein the main clock is driven at one of the first or second frequencies based on said comparison of the wireless signal reception sensitivities.

7. The method of claim 6 , wherein the main clock operates based on a frequency variable output from a phase-locked loop circuit.

8. The method of claim 6 , wherein the main clock operates based on an output from one of a plurality of clock generators which respective generate the first and second frequencies.

9. The method of claim 6 , wherein a frequency of the pixel qualification clock corresponds to a multiplied or divided frequency of the main clock, the main clock frequency being multiplied or divided based on a predetermined ratio.

10. A method for controlling a mobile terminal, comprising: operating the mobile terminal on a first wireless channel; searching stored info nation indicative of a plurality of wireless channels and corresponding camera clock frequencies; identifying a camera clock frequency corresponding to the first wireless channel based on a result of the search; and driving a camera of the mobile terminal at the camera clock frequency that corresponds to the first wireless channel, wherein: each of the camera clock frequencies included in the stored information causes a predetermined range of wireless signal reception sensitivity to be generated when the mobile terminal is operated at respective one of the wireless channels, and the camera is operated at another frequency which produces a wireless signal reception sensitivity lower than the wireless signal reception sensitivities produced at each of the stored camera clock frequencies, wherein the other frequency is determined based on at least one of a mode of the camera or a setting of the camera.

11. The method of claim 10 , wherein, when the first wireless channel is not found in the stored information during said search, said method further comprises: operating at least one clock at first and second frequencies; determining wireless signal reception sensitivities of the mobile terminal at the first and second frequencies; comparing the wireless signal reception sensitivities; and controlling a camera of the mobile terminal at one of the first or second frequencies based on said comparison of the wireless signal reception sensitivities.

12. The method of claim 11 , further comprising: updating the stored information to list the first or second frequency as corresponding to the first wireless channel.

13. A mobile terminal comprising: at least one camera; and a controller to control an operating frequency of the camera by: (a) operating at least one clock at first and second frequencies; (b) determining wireless signal reception sensitivities of the mobile terminal at the first and second frequencies; (c) comparing the wireless signal reception sensitivities; (d) determining that one of the first or second frequencies does not lower wireless signal reception sensitivity for a searched wireless channel; and (e) operating the camera at the first frequency or the second frequency determined not to lower wireless signal reception sensitivity for the searched wireless channel, wherein the at least one clock is operated at the first and second frequencies before the mobile terminal enters a camera mode, wherein the camera is operated at the first frequency or the second frequency determined not to lower wireless signal reception sensitivity for the searched wireless channel when the mobile terminal is in camera mode, wherein, when a difference between the wireless signal reception sensitivities at the first and second frequencies is less than a predetermined value, and wherein the controller further operates the camera at a third frequency which produces a wireless signal reception sensitivity lower than the wireless signal reception sensitivities produced at each of the first and second frequencies when a difference between the wireless signal reception sensitivities at the stored camera clock frequencies lies within a predetermined range, the third frequency being determined based on at least one of a mode of the camera or a setting of the camera.

14. A mobile terminal comprising: at least one camera; and a controller to control an operating frequency of the camera by: (a) operating the mobile terminal on a first wireless channel; (b) searching stored information listing a plurality of wireless channels and corresponding camera clock frequencies; (c) identifying a camera clock frequency corresponding to the first wireless channel; and (d) driving a camera of the mobile terminal at the camera clock frequency that corresponds to the first wireless channel, wherein each camera clock frequency included in the stored information causes a predetermined range of wireless signal reception sensitivity to be generated when the mobile terminal is operated at respective one of the wireless channels, wherein the controller operates the at another frequency which produces a wireless signal reception sensitivity lower than the wireless signal reception sensitivities produced at each of the stored camera clock frequencies when a difference between the wireless signal reception sensitivities at the stored camera clock frequencies lies within a predetermined range, and wherein the other frequency is determined based on at least one of a mode of the camera or a setting of the camera.